JP3788089B2 - Timer switch - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an embedded wiring type timer switch provided with an electronic timer circuit such as a temporary operation switch circuit that operates a load for a certain period of time when a switch is operated and a delay stop switch circuit that operates a load for a certain period of time after an OFF operation. .
[0002]
[Prior art]
Conventionally, a timer switch for operating a load such as a ventilating fan installed in a bathroom or toilet for a certain period of time has been provided, and when this type of timer switch is pressed when the operation unit is pressed once, There is a temporary operation switch for operating the load for a predetermined timer time (for example, 5 minutes), and a delay stop switch for stopping the load when a predetermined timer time (for example, 5 minutes) has elapsed after the turning-off operation.
[0003]
[Problems to be solved by the invention]
Since this type of switch is composed of a spring-type delay mechanism, the setting time of the temporary operation switch and the delay stop switch is about 2 hours at the maximum, and there is a problem that it is difficult to realize a long-time timer. .
[0004]
The present invention has been made in view of the above problems, and an object thereof is to provide an embedded wiring type timer switch capable of realizing a long-time timer.
[0005]
[Means for Solving the Problems]
  In order to achieve the above object, according to the first aspect of the present invention, the outer dimension of the instrument mounting hole in the longitudinal direction corresponds to a mounting frame having a tool mounting hole which is elongated and provided with three sets of instrument mounting means in the longitudinal direction. Is formed into a dimension that is an integral multiple of the dimension of approximately 1/3 of the longitudinal dimension of the instrument mounting hole, and is housed inside the instrument body having a mounting means for mounting to the instrument mounting means of the mounting frame, An electronic timer circuit that is configured of an electronic circuit and operates a predetermined timer time load, and is provided in the electronic timer circuit to turn on and off the operation of the electronic timer circuit. The push button switch facing the switch, the connection terminal for connecting the series circuit of the load and the power source, and the flexibility that can be pushed from the front side of the operation push button that is mounted on the front surface of the body and faces the opening. With a cosmetic cover When the push button switch is pushed through the decorative cover for a predetermined time or more, the timer time of the electronic timer circuit is switched in order to a preset time while the push button switch is being pushed, and the push button switch is pushed. The set time at the time of stopping is set to the timer timeIn addition, one or a plurality of switch devices having operation switches for operating the load are connected, and the electronic timer circuit operates in accordance with the operation of the operation switch provided in each switch device.The outer dimension of the body with respect to the longitudinal direction of the instrument mounting hole is formed by multiplying the dimension of about 1/3 of the longitudinal direction of the instrument mounting hole by an integral number, and is attached to the instrument mounting means of the mounting frame. Since the mounting means is provided in the body, embedded wiring can be performed using an existing mounting frame, and since an electronic timer circuit is used, it is highly accurate compared to a switch having a conventional mechanical delay mechanism A long timer can be realized.
[0010]
  Moreover, in the invention of claim 1,If the push button switch is pressed for more than a certain time via the decorative cover, the push button switch is being pressed., ElectricThe timer time of the child timer circuit is sequentially switched to a preset setting time, and the setting time when the push button switch is stopped is set to the timer time.So pushIt is necessary to provide a switch for switching the timer time separately from the button switchNotThe cost can be reduced by reducing the number of parts and the size of the push button switch can be increased, so that the operability is improved.In addition, one or more switch devices having operation switches for operating the load are connected, and the electronic timer circuit operates in accordance with the operation of the operation switch provided in each switch device. It can be operated with a timer switch and switch devices installed at multiple locations.
[0011]
  The invention according to claim 2 corresponds to a mounting frame having a tool mounting hole which is elongated and provided with three sets of tool mounting means in the longitudinal direction, and the outer dimension of the tool mounting hole in the longitudinal direction is the longitudinal dimension of the tool mounting hole. Is formed by multiplying the dimension of approximately 1/3 of the number by an integer, and has a mounting body for mounting on the mounting means of the mounting frame, and is housed in the body and is composed of an electronic circuit and has a predetermined size. An electronic timer circuit for operating a timer time load, and an electronic timer circuit for switching on and off the operation of the electronic timer circuit, a push button switch in which an operation push button faces an opening opened on a body surface, and a load And a connecting terminal for connecting a series circuit of the power source, and a flexible decorative cover that is mounted on the front surface of the body and that can push the operation push button facing the opening from the front surface side. Push button through cover When the switch is pressed twice continuously within a predetermined time, the electronic timer circuit shifts to an operation mode for switching the set time of the timer time, and the timer time is set in advance every time the pushbutton switch is pressed once. The time is switched in turn, and the set time at that time is set to a timer by either pressing the push button switch twice continuously within a predetermined time or by stopping the push button switch operation for a certain period of time. Set to timeIn addition, one or a plurality of switch devices having operation switches for operating the load are connected, and the electronic timer circuit operates in accordance with the operation of the operation switch provided in each switch device.The outer dimension of the body with respect to the longitudinal direction of the instrument mounting hole is formed by multiplying the dimension of about 1/3 of the longitudinal direction of the instrument mounting hole by an integral number, and is attached to the instrument mounting means of the mounting frame. Since the mounting means is provided in the body, embedded wiring can be performed using an existing mounting frame, and since an electronic timer circuit is used, it is highly accurate compared to a switch having a conventional mechanical delay mechanism A long timer can be realized. Furthermore, when the push button switch is pressed twice continuously within a predetermined time via the decorative cover, the mode shifts to an operation mode for switching the set time of the timer time, and the timer time is preset every time the push button switch is pressed once. At the set time, and the push button switch is pressed again continuously within a predetermined time, or the push button switch is stopped for a certain period of time, or the setting at that time is stopped. Since the time is set to the timer time, there is no need to provide a switch for switching the timer time separately from the push button switch, the number of parts can be reduced, the cost can be reduced, and the size of the push button switch can be increased. Therefore, operability is improved.In addition, one or more switch devices having operation switches for operating the load are connected, and the electronic timer circuit operates in accordance with the operation of the operation switch provided in each switch device. It can be operated with a timer switch and switch devices installed at multiple locations.
[0012]
  Claim3In the invention of claim 1,Or 2According to the invention, in the interior of the container, the first printed circuit board on which circuit components constituting the electronic timer circuit are mounted, and the push button switch electrically connected to the circuit mounted on the first printed circuit board Is mounted on the second printed circuit board, and the body is configured by combining the body and the cover, and the first and second printed circuit boards are provided with an insulating spacer between the two substrates. The first and second printed circuit boards are clamped between the body and the cover so that the first and second printed circuit boards are fixed inside the container. Compared with the case where the first and second printed circuit boards are screwed to the body, the mounting operation can be performed more easily, and it is necessary to secure a space for screwing to the first and second printed circuit boards. Since there is no wiring pattern It is possible to widen the area that can be formed, it is possible to reduce the overall size of the switch correspondingly substrate is miniaturized.
[0013]
  Claim4In the present invention, claims 1 toAny one of 3In the invention, a first power supply circuit that is supplied with power through the connection terminal and generates an operating power supply for the electronic timer circuit when the load is off, and a second power supply circuit that generates an operating power supply for the electronic timer circuit when the load is on. The electronic timer circuit is supplied with power from different power supply circuits when the load is turned on and off, so that the first and second power supply circuits are respectively turned off. Alternatively, the circuit can be designed under conditions that match the ON state, and a circuit with reduced voltage distortion of the load voltage can be realized.
[0015]
  Claim5In the present invention, claims 1 to4In any one of the inventions, the electronic timer circuit is constituted by a microcomputer, a high-precision and long-time timer can be realized, and a program can be added when various functions are added. It is possible to easily cope with such a change without making a significant circuit change.
[0016]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described with reference to the drawings.
[0017]
  (Basic configuration)
  First, a basic configuration of a timer switch according to the present invention will be described with reference to FIGS. thisThe body 1 of the timer switch A is composed of a body 2 made of a synthetic resin molded product and a cover 3, and the body 1 has a size in which an instrument mounting hole 5 having three sets of instrument mounting means is provided in the middle portion. The outer dimension corresponding to the frame 4 and corresponding to the longitudinal direction of the instrument mounting hole 5 is approximately one third of the longitudinal dimension of the instrument mounting hole 5 (hereinafter referred to as one module dimension, for example, JIS standard). The unit dimensions of the large-angle continuous wiring device are attached to the device mounting means of the mounting frame 4. Note that the mounting frame 4 is provided with three pairs of locking holes 6 in the side frame pieces 4a on both sides to constitute a device mounting means.
[0018]
The body 2 has a substantially box-like shape with an open upper surface. Terminal housing parts 11 and 11 for housing connection terminals are housed on both sides of the instrument mounting hole 5 in the short width direction, and circuit components are housed on the center part. A circuit block storage portion 12 is provided, and one terminal storage portion 11 has two pairs of quick connection terminal type connection terminals 9 including a lock spring 7 and a terminal plate 8, and a wire connection state of these connection terminals 9. A release button 10 for canceling is stored. Then, at the bottom of each terminal storage portion 11, an electric wire insertion hole 26 for inserting an electric wire is opened corresponding to each connection terminal 9, and the tip of a jig such as a minus driver is used to push and move the release button 10. Is inserted corresponding to the release button 10.
[0019]
A first printed circuit board 15 on which electronic components of the electronic timer circuit shown in FIG. 7 are mounted is disposed in the opening of the body 2, and the printed circuit board 15 is projected from the inner surface of the body 2 as shown in FIG. 6. When placed on the rib 25, a large electronic component mounted on the back surface of the printed circuit board 15 is accommodated in the circuit block accommodating portion 12 of the body 2. In FIG. 6, the electronic components mounted on the printed circuit board 15 and the connection terminals 10 are omitted. Further, the terminal boards 8 and 8 are soldered to both sides of one end of the back surface of the printed circuit board 15 facing the opening of the terminal storage unit 11, and the printed circuit board 15 is placed on the opening of the circuit block storage unit 12. The terminal plate 8 is arranged in a suspended manner in the terminal accommodating part 11 so as to enclose the locking spring 7 previously accommodated in the terminal accommodating part 11. Here, a protruding piece 8 a that protrudes upward in FIG. 1 from one end of each terminal board 8 is a piece that is inserted into the hole 15 a of the printed board 15 from the back side and soldered to the printed board 15.
[0020]
The circuit of the printed circuit board 15 is operated via a cable 14 for an operation time when the load is operated for a predetermined time, that is, an operation switching switch SW1 including a slide switch for switching a timer time, and a tact switch for an on / off operation of the electronic timer circuit. Is electrically connected to the circuit of the second printed circuit board 16 on which the push button switch SW2 and the light emitting diode LED1 for operation display are mounted. The printed circuit board 16 is disposed on the printed circuit board 15 via a spacer 13 formed of an insulating synthetic resin such as ABS resin, and is mounted on the surface side. The operation changeover switch SW1, the push button switch SW2, and the light emitting diode The LED 1 is housed in a cover 3 that is attached to the opening of the body 2. Here, when the body 2 and the cover 3 are joined together as shown in FIG. 6, the upper surface of the printed circuit board 16 is engaged with a rib 28 projecting from the inner surface of the cover, and the two printed circuit boards 15 and 16 are Since the spacer 13 is interposed between the boards 15 and 16 and is fixed between the body 2 and the cover 3, the printed boards 15 and 16 are attached to the body 2 or the cover 3 using, for example, a tapping screw. Compared with the case where the screws are fixed to the board, it is possible to reduce the mounting work, and the screws for fixing the printed circuit boards 15 and 16 are not necessary, so that the number of parts can be reduced and the cost can be reduced. In the case of fixing, it is not possible to form a wiring pattern in a portion where the screw is fixed, but it is not necessary to secure a space for fixing the screw on the printed circuit boards 15, 16. It is possible to widen the area that can create over emissions, and correspondingly printed circuit board 15 is miniaturized, it is possible to miniaturize the entire switch.
[0021]
On the other hand, the cover 3 has a substantially rectangular front surface and is provided with stepped portions 3b and 3b on both sides of a projecting portion 3a protruding forward. The projecting portion 3a is formed in the instrument mounting hole 5 of the mounting frame 4. 1 is fitted from below and protrudes upward. A knob 17 of the operation changeover switch SW1 is opposed to the window 23a opened on the front surface of the projecting portion 3a. The slider 17 is covered with a slider operation knob 18 from the front side of the cover 3. The drive button 19 of the pushbutton switch SW2 is covered with a substantially box-shaped operation pushbutton 20 having a lower surface opened via a coil spring 22, and the pushbutton 20 is opened from an opening 23b provided on the front surface of the projecting portion 3a. Exposed. Note that a flange 20a protrudes from the opening edge of the push button 20, and the hook 20a engages with the opening edge of the opening 23b, thereby preventing the push button 20 from coming off. Further, the light emitting diode LED1 is opposed to the window 23c opened on the front surface of the protruding portion 3a.
[0022]
Here, the container 1 of the timer switch A is assembled by connecting the body 2 and the cover 3 with a pair of assembly frames 21 and 21. The assembly frame 21 is constructed by projecting assembly legs 21b at both ends of a strip-like substrate portion 21a. Then, the board portion 21a of the assembly frame 21 is placed on the step portion 3b provided on the cover 3, and the assembly legs 21b are positioned in the mounting recesses 3c and 2a provided on the side surface of the cover 3 and the side surface of the body 2, respectively. The body 1 is assembled by combining the body 2 and the cover 3 by expanding the bifurcated claw 21c formed at the tip of the assembly leg 21b to the left and right. Further, a pair of locking claws 21d are provided in the vicinity of both ends of one side edge of the substrate portion 21a of the assembly frame 21, and an upright piece 21e having an engagement hole 21f is formed on the other side edge with the assembly leg 21b. Projecting in the opposite direction, and using either the locking claw 21d or the engagement hole 21f as will be described later, the container 1 is attached to either a metal mounting frame or a synthetic resin mounting frame. It can be attached. Here, an attaching means is constituted by the locking claw 21d and the engaging hole 21f.
[0023]
  Thus, it is constructed and assembled as described above.TataThe Ima switch A is attached to a buried hole or switch box (not shown) provided in a building wall or the like by being mounted on the synthetic resin mounting frame 4 shown in FIG. (For example, a ventilation fan installed in a bathroom or the like) is connected using a wire insertion hole 26 on the back surface of the container 1 by a previously wired wire.
[0024]
The mounting frame 4 can be fixedly attached to the switch box by a mounting screw 32 inserted into a long hole 31 provided in the frame piece 4b bridging between both ends of the both side frame pieces 4a, as well as on a wall panel or the like. Can be directly fixed with a wood screw or the like inserted through the mounting hole 33, and a hole 34 is provided for mounting the clamp so that a clamp that is fixed by sandwiching the wall panel can be used. .
[0025]
A plate frame 35 is fixed to the front side of the mounting frame 4 by fastening screws 36 into screw holes 39. A decorative plate 37 is mounted on the front side of the plate frame 35, and the protruding portion 3a of the cover 3 is exposed to the indoor side through a window hole 38 provided in the center of the decorative plate 37. Note that a locking claw (not shown) that locks into a locking hole 40 formed in the plate frame 35 protrudes from the back surface of the decorative plate 37, and the locking claw is engaged with the locking hole 40. The decorative plate 37 is attached to the front side of the plate frame 35 by stopping.
[0026]
  NextToThe circuit configuration of the imma switch A will be described with reference to FIG. In this electronic timer circuit 100, a surge absorbing element Z1 such as ZNR and a filter capacitor C1 are respectively connected between connection terminals T11 and T12 for connecting a series circuit of a ventilation fan RL and an AC power supply AC installed in a bathroom or the like. In addition to the connection, the triac TRC1 is connected via the filter inductor L1. A parallel circuit of a resistor R1 and a capacitor C2 is connected between a T2 terminal and a T1 terminal of the triac TRC1 via a rectifier DB1 formed of a diode bridge. The parallel circuit of the resistor R1 and the capacitor C2 is a gate of the triac TRC1. When the triac TRC1 is turned on, the ventilation fan RL is connected to the AC power source AC via the triac TRC1 and the inductor L1 to drive the ventilation fan RL.
[0027]
A first power supply circuit 101 including a resistor R2 and a Zener diode ZD1 is connected between the DC output terminals of the rectifier DB1, and the DC voltage obtained by the Zener diode ZD1 is further stepped down to, for example, 3V by the three-terminal regulator IC103. The stabilized voltage is used as an operation power supply voltage for the timer IC 106 and the like.
[0028]
  A thyristor SCR1 for turning on the triac TRC1 is connected between the DC output terminals of the rectifier DB1, and a parallel circuit of a resistor R3 and a capacitor C3 is connected between the gate and the cathode of the thyristor SCR1. The anode of the thyristor SCR1 is connected to the emitter of a PNP transistor Q1 having a resistor R4 connected between the base and emitter, and the collector of the transistor Q1 is connected to the gate of the thyristor SCR1 through a Zener diode ZD2. At the same time, it is connected to the voltage input terminal of the three-terminal regulator IC 103 via the diode D1. The base of the transistor Q1 is connected to the collector of the NPN transistor Q2 through the resistor R5. The emitter of the transistor Q2 is connected to the circuit ground, and the base of the transistor Q2 is connected to the collector of the NPN transistor Q3. The emitter of the transistor Q3 is connected to the circuit ground, and the base of the transistor Q3 is connected to the output terminal F1 of the timer IC 106 via a resistor. Here, the transistor Q1, the resistor R4, the diode D1, the Zener diode ZD2, etc.circuit102 is configured.
[0029]
Here, the collector of the transistor Q3 is pulled up to the power supply voltage, and when the signal level of the output terminal F1 of the timer IC 106 becomes high level, the transistor Q3 is turned on and the transistor Q2 is turned off. When the transistor Q2 is turned off, the transistor Q1 is turned off, so that the power supplied to the constant voltage by the Zener diode ZD1 is supplied to the three-terminal regulator IC103. At this time, since the current necessary for turning on does not flow through the gate of the triac TRC1, the triac TRC1 is off and the power supply to the ventilation fan RL is cut off.
[0030]
On the other hand, when the signal level of the output terminal F1 of the timer IC 106 becomes low level, the transistor Q3 is turned off and the transistor Q2 is turned on. When the transistor Q2 is turned on, the transistor Q1 is turned on, power is supplied from the rectifier DB1 to the three-terminal regulator IC 103 via the transistor Q1 and the diode D1, and the three-terminal regulator IC 103 generates operating power such as the timer IC 106. Here, when the potential of the cathode of the Zener diode ZD2 becomes higher than the breakdown voltage, a reverse current flows through the Zener diode ZD2, and a current flows through the Zener diode ZD2 to the gate of the thyristor SCR1 so that the thyristor SCR1 becomes conductive. . When the thyristor SCR1 is turned on, a current necessary for turning on the gate of the triac TRC1 flows every half cycle of the AC power supply AC, the triac TRC1 is turned on, and power is supplied to the ventilation fan RL.
[0031]
As described above, the three-terminal regulator IC 103 that generates the operating power of the timer IC 106 is supplied with power from different power supply circuits when the ventilation fan RL is turned off and when the ventilation fan RL is turned on, and from the second power supply circuit 102 when the ventilation fan RL is turned on. Since power necessary for the operation of the electronic timer circuit is supplied to the three-terminal regulator IC 103 and the remaining power is supplied to the ventilation fan RL, voltage distortion of the load voltage applied to the ventilation fan RL is reduced. When the ventilation fan RL is off, the first power supply circuit 101 supplies a voltage that is constant by a Zener diode to the three-terminal regulator IC 103, so that the ventilation fan RL can be turned on and off in a short time by pressing the push button switch SW2. It is possible to cope with such cases.
[0032]
  The timer IC 106 controls the timing at which the thyristor SCR1 is turned on so that the ventilation fan RL is operated for a predetermined timer time. The timer IC 106 includes, for example, two timer operation time setting terminals S1 and S2, and the timer time is switched according to the signal level of the timer operation time setting terminals S1 and S2. That is, when any one of the timer operation time setting terminals S1 and S2 becomes low level by the switching operation of the operation selector switch SW1, the timer IC 106 selects the timer time corresponding to the terminal.For example,When S1 of the timer operation time setting terminals S1 and S2 becomes low level, the timer operation is performed for 4 hours, when S2 becomes low level, the timer operation is performed for 2 hours, and when both S1 and S2 become high level, continuous operation is performed. ing.
[0033]
The switch input port S3 of the timer IC 106 is connected to the ground via the push button switch SW2, and falls to a low level when the push button switch SW2 is pushed. In the timer IC 106, when the pushbutton switch SW2 is pushed and the switch input port S3 falls to the low level during standby, the timer time set by the operation changeover switch SW1 (that is, the timer operation for 4 hours, the timer for 2 hours) The operation is started at the time when the push button switch SW2 is pushed again and the switch input port S3 falls to the low level or the set timer time elapses. . Here, when the timer IC 106 starts operating at the timer time set by the operation changeover switch SW1, the control output terminal F1 is set to the low level during the timer operation period or the continuous operation period to turn off the transistor Q3. When the transistor Q3 is turned off, the transistor Q2 is turned on, the transistor Q1 is turned on, and power is supplied from the rectifier DB1 to the three-terminal regulator IC 103 via the transistor Q1 and the diode D1. At this time, when the cathode potential of the Zener diode ZD2 becomes higher than the breakdown voltage, a current flows through the Zener diode ZD2 to the gate of the thyristor SCR1, and the thyristor SCR1 becomes conductive. When the thyristor SCR1 is turned on, a current necessary for turning on the gate of the triac TRC1 flows every half cycle of the AC power supply AC, the triac TRC1 is turned on, and power is supplied to the ventilation fan RL.
[0034]
Reference numeral 104 denotes a reset IC for resetting the timer IC 106 when the power is turned on, and reference numeral 105 denotes a reference clock generation circuit for the timer IC 106. The light emitting diode LED1 is connected to the display output terminals F2 to F4, and the current flows through the light emitting diode LED1 by setting the display output terminals F2 to F4 to the low level while the timer IC 106 is operating or continuously operating. It emits light and displays that the timer is operating or is in continuous operation.
[0035]
  By the way, in FIG.IsAlthough only the Ima switch A is shown attached to the attachment frame 4, the body 1 of the timer switch A has an external dimension corresponding to the longitudinal direction of the instrument attachment hole 5 of the attachment frame 4. Since the timer switch A is formed with a size that is approximately one-third of the directional dimension, the timer switch A corresponds to one module size of two other wiring devices or two module sizes (that is, corresponding to the longitudinal direction of the device mounting hole 5). It can be arranged in parallel with the mounting frame 4 together with one other wiring device whose outer dimension is a dimension that is approximately two-thirds of the longitudinal dimension of the device mounting hole 5.
[0036]
  FIG.IsThe Immer Switch A is used for the timer operation of the ventilation fan RL provided in the bathroom with a strong terminal and a weak terminal for switching the air volume between the strong and weak two stages. The timer switch A is used to increase or decrease the air volume of the ventilation fan RL. FIG. 9 shows a connection state of each of the switches A to C. FIG. 9 shows a state in which the switches are switched together with a strength switching switch B for switching and a lighting switch C for turning on and off the lighting load L installed in the bathroom. Yes. One connection terminal T11 of the timer switch A is connected to one end of the AC power supply AC, and the other end of the AC power supply AC is connected to a common terminal of the ventilation fan RL. The other connection terminal T12 of the timer switch A is connected to a strong terminal or a weak terminal of the ventilation fan RL via a strength switching switch B. Here, when the switching operation of the strong / weak switching switch B is performed, the terminal of the ventilation fan RL to which the AC power supply AC is connected is switched to the strong terminal or the weak terminal, and the air volume of the ventilation fan RL is switched to strong or weak. The illumination load L is connected to the AC power source AC via the illumination switch C, and the illumination load L is turned on or off according to the on / off operation of the illumination switch C.
[0037]
In apartments, etc., ventilation may be performed from a plurality of suction ports using a single ventilation fan. As shown in FIG. 10, this timer switch A is used as a master unit and is connected to a plurality of suction ports. A plurality of (for example, two) slave units (switch devices) D1 and D2 provided correspondingly are connected to the timer switch A so that one ventilation fan RL can be operated at multiple locations.
[0038]
An AC power supply AC and a ventilation fan RL are connected to the connection terminals T11 and T12 of the timer switch A. A triac TRC1 is connected between the connection terminals T11 and T12. The control circuit 100 includes the rectifier DB1, the constant voltage circuits 101 and 102, the three-terminal regulator IC 103, the timer IC 106, and the like as described above, and the timer IC 106 controls the on / off of the triac TRC1. Further, the rectifier DB1, the constant voltage circuits 101 and 102, and the three-terminal regulator 103 generate operation power such as the timer IC 106, and the generated operation power is sent to the slave devices D1 and D2 from the connection terminals T21 and T22.
[0039]
The connection terminals T13 and T14 of the slave unit D1 are connected to the feed connection terminals T21 and T22 of the timer switch A via the cable 42, respectively. A series circuit of a Zener diode ZD3 and a transistor Q3 is connected between the connection terminals T13 and T14 of the child device D1, and the transistor Q3 is turned on and off by the control circuit 111. The control circuit 111 is operated by the operating power supplied from the timer switch A to the connection terminals T13 and T14, and turns on the transistor Q3 when the operation switch SW3 is operated. When the transistor Q3 is turned on, the Zener diode ZD3 is connected between the connection terminals T13 and T14, and the potential between the connection terminals T13 and T14 is clamped to the Zener voltage of the Zener diode ZD3. Therefore, the control circuit 100 of the timer switch A checks the voltage between the feed connection terminals T21 and T22, and the voltage between the feed connection terminals T21 and T22 is lowered to a predetermined voltage, so that the ventilation fan RL is turned on / off in the slave units D1 and D2. It is detected that the operation has been performed, and the triac TRC1 is turned on or off in accordance with the on / off operation of the slave units D1 and D2, and the ventilation fan RL is operated or stopped. Therefore, the ventilation fan RL can be operated from multiple locations. it can. Moreover, since the light emitting diode LED3 for operation display is provided in the subunit | mobile_unit D1, it can confirm easily the operation state of ventilation fan RL or the subunit | mobile_unit D1 from the lighting state of light emitting diode LED1. In addition, since the structure of the subunit | mobile_unit D2 is the same as that of the subunit | mobile_unit D1, the description is abbreviate | omitted.
[0040]
  FIG.IsThe operation state (timer operation and air flow) of the ventilation fan RL is switched using the ima switch A and the strength switching switch B, and a plurality of slave units D1 and D2 are connected to the timer switch A with the timer switch A as a master unit. And the state transition in the case of operating operation of ventilation fan RL from many places is shown. According to this figure, when the pushbutton switch SW2 is pushed in the standby state (off), the pushbutton switch SW2 is pushed.[1]Every operation mode (on) after 4 hours (hereinafter referred to as timer 1 operation), off after 2 hours (hereinafter referred to as timer 2 operation), continuous on and standby state When the timer operation ends[2]Is set to return to the standby state (off). Switching operation of strong / weak switch B during operation[3]Every time the ventilation fan RL is alternately switched to the strong operation or the weak operation. Also, continuous ON operation using the operation switch SW1 in the operating state[Four]Is switched to the continuous operation state, and timer 1 is operated.[Five]Is switched to the operation state of timer 1 operation, timer 2 operation[6]Is switched to the operation state in the timer 2 operation. Further, when the operation switches SW3 and SW4 of the slave units D1 and D2 are operated during the standby state and the slave unit inputs are input from the slave units D1 and D2 (FIG. 13).[7]), Only the slave units D1 and D2 are in the operating state, the timer switch A operates the ventilation fan RL in response to the slave unit input, and when the slave unit input is lost (FIG. 13)[8]), Return to the standby state.In the above description, the circled numbers in FIG. [] It is written as a number enclosed in brackets.
[0041]
  by the way,thisIn the timer switch A, as shown in FIG. 2A, the push button 20 of the push button switch SW2 is arranged on the lower side of the protrusion 3a provided on the cover 3, and the slider of the operation changeover switch SW1 is arranged on the upper side in the figure. Although the operation knob 18 and the light emitting diode LED1 are arranged side by side on the left and right, as shown in FIG. 15, the push button 20 of the push button switch SW2 is arranged on the lower side of the protrusion 3a in the figure, and the upper side in the figure. The slider operation knob 18 of the operation changeover switch SW1 may be disposed in such a manner that the light emitting diode LED1 for operation display may be accommodated in the push button 20 so as to face the window hole 20b provided on the front surface of the push button 20. Compared with the case where the slider operation knob 18 is arranged side by side, the size of the slider operation knob 18 can be increased, and the operability is improved.
[0042]
  Further, as shown in FIG. 16, a rotary switch is used as the operation changeover switch SW1, and a push button 20 'whose front surface is formed in a substantially circular shape is placed on the drive unit 19 of the push button switch SW2. The operation portion of the operation changeover switch SW1 is composed of an operation ring 40 that is exposed from an opening provided in the protruding portion 3a and is rotatably attached along the outer periphery of the push button 20 ′.SomeThe timer ring is set to a desired time by rotating the operation ring 40 to a predetermined position, and the push fan 20 ′ inside the operation ring 40 is pressed to turn on / off the ventilation fan RL. As described above, since the operation portion of the operation changeover switch SW1 is configured by the operation ring 40 that is rotatably attached along the outer periphery of the pushbutton 20 ′, the pushbutton 20 ′ of the pushbutton switch SW2 and the operation changeover switch SW1. The operation ring 40 can be arranged well together.
[0043]
  By the way, FIG.17 and FIG.18 is the front view which showed one Embodiment of the timer switch,A flexible resin sheet (membrane sheet) 24 is disposed at a position corresponding to the push button switch SW2 in the protruding portion 3a of the cover 3.AndWhen a portion corresponding to the push button switch SW2 of the resin sheet 24 is pressed, the resin sheet 24 is bent inward and the push button switch SW2 can be pushed. Here, a light-emitting diode (not shown) for operation display is disposed inside the container 1, and a display made of a transparent portion so that light can pass through the portion of the resin sheet 24 corresponding to the light-emitting diode. A window 24a is provided, and the light of the light emitting diode for operation display can be seen from the outside through the display window 24a.
[0044]
In the timer switch shown in FIGS. 17 and 18, the operation changeover switch SW1 is omitted, and the timer time is set to about 4 hours in the initial state. Here, the display window 24a is divided into three areas “2H”, “4H”, and “continuous”, and the corresponding area is turned on according to the setting of the timer time. In the off state, the light emitting diode for operation display is turned off. In the switch shown in FIG. 17, when the push button switch SW2 is pressed through the resin sheet 24 from the off state, the display window 24a corresponding to the set value of the timer time (off after 2 hours, off after 4 hours, or continuously on). This area is lit and the timer operation is started according to the timer time setting. Further, when the push button switch SW2 is continuously pressed for 2 seconds or more from the OFF state through the resin sheet 24, the timer time switching operation is started, and the timer time is set to “4H”, “continuous”, “2H”, etc. It switches in order and the area | region of the corresponding display window 24a lights. Then, the timer time is set to the set value corresponding to the area that is lit when the push operation is stopped.
[0045]
In the switch shown in FIG. 18, when the push button switch SW2 is pressed twice in succession through the resin sheet 24 from the OFF state, the timer time switching operation is started and the current set value of the timer time is set. The area of the display window 24a corresponding to starts to blink. When the push button switch SW2 is pressed once through the resin sheet 24 in this state, the timer time setting is switched in order of “4H”, “continuous”, “2H”, etc. while the push button switch SW2 is being pressed. The area of the corresponding display window 24a flashes. When the set value of the timer time is switched to the desired set value, if the push button switch SW2 is pressed twice in succession at short time intervals or left for about 5 seconds in that state, the light emitting diode lights up from the blinking state The state is switched, and the timer time is set to the set value corresponding to the illuminated area.
[0046]
  14 switches the operating state (timer operation and air volume) of the ventilation fan RL using the timer switch A and the strength switching switch B of FIG. 18 described above, and a plurality of timer switches A are used as the master switch. The state transition in the case of connecting the child devices D1 and D2 and operating the ventilation fan RL from multiple locations is shown. According to this figure, when the pushbutton switch SW2 is pushed in the standby state (off), the pushbutton switch SW2 is pushed.[1]Every time the timer operation is completed, a predetermined operation mode, that is, the timer 1 operation, the timer 2 operation, and the continuous ON state is repeatedly returned to the operation state (ON) and the standby state (OFF).[2]Is set to return to the standby state (off). Switching operation of strong / weak switch B during operation[3]Every time the ventilation fan RL is alternately switched to the strong operation or the weak operation. Further, when the push button switch SW2 is continuously pressed for 2 seconds or more in the operation state (see FIG. 14).[Four]), The timer time setting value is switched in the order of timer 1 (off after 4 hours) → timer 2 (off after 2 hours) → continuous on, and the timer time is set to the setting value when released The Further, when the operation switches SW3 and SW4 of the slave units D1 and D2 are operated during the standby state and the slave unit inputs are input from the slave units D1 and D2 (FIG. 14).[7]), Only the slave units D1 and D2 are in the operating state, the timer switch A operates the ventilation fan RL in response to the slave unit input, and when the slave unit input is lost (FIG. 14)[8]), Return to the standby state.In the above description, the circled numbers in FIG. [] It is written as a number enclosed in brackets.
[0047]
  (Reference example)
  In FIG.Other configurationsThe disassembled perspective view of timer switch A 'is shown. The same components as those of the timer switch A in FIG. 1 described above are denoted by the same reference numerals and description thereof is omitted.Described in the basic configurationIn the timer switch A, the operation changeover switch SW1 for changing the timer time is provided.Reference exampleThe timer switch A ′ does not include an operation changeover switch for switching the timer time, and when the push button switch SW2 is pressed once, the load is operated only for a preset timer time from the time when the push operation is performed. I am letting.
[0048]
The printed circuit board 16 is provided with a push button switch SW1 and a light emitting diode LED1 for operation display. The drive button 19 of the push button switch SW1 is covered with a substantially box-like push button 20 having an open bottom surface via a coil spring 22, and the push button 20 has an opening 23d provided on the front surface of the projecting portion 3a of the cover 3. Exposed from. The light emitting diode LED1 faces the window 20b provided on the front surface of the push button 20, and the lighting state of the light emitting diode LED1 can be visually recognized through the window 20b.
[0049]
  FIG.This timer switch A 'Are shown together with two illumination switches C1 and C2, and FIG. 21 shows a connection diagram thereof. A series circuit of the ventilation fan RL and the AC power supply AC is connected between the connection terminals T11 and T12 of the timer switch A 'via the feed connection terminals of the lighting switches C1 and C2. In addition, a series circuit of an AC power supply AC and a lighting load L1 (L2) is connected to the lighting switch C1 (C2), and the lighting loads L1 and L2 are turned on according to the on / off operation of the lighting switches C1 and C2. Or go out.
[0050]
  In addition, TaIn the ima switch A ′, when the pushbutton switch SW is pressed once, the ventilation fan RL is operated only for a preset timer time from the time when the pushbutton operation is performed, but the pushbutton switch SW1 is used to perform the off operation. The electronic timer circuit may be configured to stop the ventilation fan RL when a preset timer time elapses from the time of the execution. Further, as shown in FIG. 22, a pair of connection terminals 9 are accommodated in two terminal accommodating portions 11 and 11 provided on the body 2, and a pair of connection terminals 9 constituting the connection terminals T11 and T12, and a feed A pair of connection terminals 9 constituting the feed connection terminals T21 and T22 for wiring may be accommodated.
[0051]
By the way, FIG. 11 is a connection diagram of a system in which suction ports for ventilation fans RL are provided at three places of a washroom, a toilet, and a bathroom, and one ventilation fan RL is turned on / off by a switch installed in each of the washroom, toilet, and bathroom. Show. As shown in FIGS. 11 and 12 (a), the washroom has a switch E for turning on / off the ventilation fan RL and an on / off operation of the two lighting loads L1, L2 installed in the washroom. Illuminating switches C1 and C2 are provided. Each switch E, C1 and C2 is formed in the size of one module of the wiring device, and is embedded using a mounting frame 4, and each switch E, C1 is provided. , C2 is exposed from an opening provided in the decorative plate 37a.
[0052]
As shown in FIGS. 11 and 12 (b), the toilet is provided with a timer switch A ′ having a temporary delay switch circuit for performing on / off operation of the ventilation fan RL and an on / off operation of the lighting load L3 installed in the toilet. Illumination switch C3 is provided, and each switch A ', C3 is formed in one module size of the wiring device, and is embedded by using the mounting frame 4, and each switch A', C3 is operated. The part is exposed from the opening window provided in the decorative plate 37b.
[0053]
Further, in the bathroom, as shown in FIGS. 11 and 12 (c), the timer switch A having a temporary delay switch circuit for turning on / off the ventilation fan RL and the lighting load L4 installed in the toilet are turned on / off. Lighting switch C4 is provided, each switch A, C4 is formed in one module size of the wiring device, is embedded by using the mounting frame 4, and the operation part of each switch A, C4 is a makeup It is exposed from the opening window provided in the plate 37c. Here, the switch E, which is the master unit, has the same circuit configuration as the timer switch A described above except for the timer circuit. The switch E is connected to a plurality of slave units (timer switches A, A ′). , A ′ push-button switch is pressed and a timer operation is performed for a predetermined timer time, the switch E turns on the ventilation fan RL for a certain period of time in accordance with the timer operation of the timer switches A, A ′.
[0054]
  FIG. 23 shows another configuration.2 is an exploded perspective view of the timer switch A ″. Note that the same components as those of the timer switch A of FIG. 1 described above are denoted by the same reference numerals and description thereof is omitted.
[0055]
The timer switch A ″ container 1 is composed of a body 2 and a cover 3 made of a synthetic resin molded product, and the size of the container 1 is intermediate between the instrument mounting holes 5 having three sets of instrument mounting means. Corresponding to the metal mounting frame 4 ′ provided in the section, the outer dimension corresponding to the longitudinal direction of the instrument mounting hole 5 is approximately 2/3 of the longitudinal dimension of the instrument mounting hole 5 (two module dimensions). It is formed and attached to the instrument mounting means of the mounting frame 4 ′.
[0056]
The body 2 that constitutes the container 1 together with the cover 3 is a box-shaped body whose upper surface is opened in FIG. 23, and a lock spring 7 and a terminal plate 8 are provided at one end corresponding to the longitudinal direction of the instrument mounting hole 5. Are provided with two pairs of quick connection terminal type connection terminals 9 and terminal storage portions 11 and 11 for storing release buttons 10 for releasing the lock state of the wires of the connection terminals 9, respectively. , 11 is provided so as to be adjacent to the circuit block storage portion 12. Here, by providing the terminal storage portions 11 on one end side, the storage space of the circuit block storage portion 12 can be increased. And the electric wire insertion hole (not shown) for inserting an electric wire is opened in the bottom part of the terminal accommodating parts 11 and 11 corresponding to each connection terminal 9, and the jig insertion hole for pushing and moving the release button 10 is carried out. (Not shown) is opened.
[0057]
A printed circuit board 15 on which the circuit components constituting the electronic timer circuit shown in FIG. 7 are mounted is disposed in the opening of the circuit block housing section 12 provided in the body 2, and a large-sized circuit board mounted on the back surface of the printed circuit board 15. Are housed in the circuit block housing portion 12. The circuit of the printed circuit board 15 is operated by a cable 14 with an operation changeover switch SW1 comprising a slide switch for switching and selecting a timer time, a pushbutton switch SW2 comprising a tact switch for turning on and off the electronic timer circuit, and an operation display light emitting diode LED1. Is connected to the circuit of the printed circuit board 16 on which is mounted. The printed circuit board 16 is disposed on the printed circuit board 15 via an insulating plate 13 ′, and the operation switch SW 1, the push button switch SW 2, and the operation display light emitting diode LED 1 mounted on the surface side are attached to the opening of the body 2. Stored in the cover 3.
[0058]
The cover 3 has a protruding portion 3a protruding upward in FIG. 23, and this protruding portion 3a is fitted into the device mounting hole 5 of the mounting frame 4 'from the lower side in the drawing and protrudes upward.
[0059]
Here, the slide operation knob 18 is put on the knob 17 of the operation changeover switch SW1, the cap button 20 'is put on the drive button 19 of the push button switch SW2, and the tip of the knob 18a of the slide operation knob 18 is It is exposed to the outside through a long hole 49 opened in the front surface of the projecting part 3a. Further, the front end surface of the push button 20 ′ faces an opening 48 opened on the front surface of the projecting portion 3 a. Further, the light emitting diode LED1 is opposed to a window 47 opened on the front surface of the protruding portion 3a of the cover 3.
[0060]
A decorative cover 51 covering the front surface is detachably mounted on the front surface of the projecting portion 3 a of the cover 3. The decorative cover 51 is formed in a frame shape, and a flexible resin sheet (membrane sheet) 51a is disposed in a portion surrounded by the frame. Here, the sheet 51a is provided with a long hole 52 for exposing the tip of the knob 18a of the slide knob 18 protruding from the long hole 49 to the front side of the sheet 51a, and the push button 20 facing the opening 48. The sheet 51 a is printed with a frame indicating the push operation area 53 with “ON / OFF” and target load name characters on the sheet 51 a, and transparent so as to transmit light corresponding to the window 47. A display portion 54 composed of a part is provided, and light of the operation display light emitting diode LED1 can be visually recognized through the display portion 54 from the outside.
[0061]
Here, the coupling and fixing of the cover 3 and the body 2 will be described. The cover 3 has elastic locking projections 45 integrally suspended along both side surfaces of the body 2 from both ends corresponding to the longitudinal direction of the instrument mounting hole 5 of the mounting frame 4 ′. The rectangular locking holes 46 formed on the both ends of the body 2 are latched into the rectangular locking holes 46 formed on the both ends of the body 2 so as to be fixed to the body 2 by locking. It is. The upper end of the locking projection 43 is a tapered surface 44 so that the lower end of the elastic locking projection 45 can easily ride on the locking projection 43.
[0062]
  AlsoThis timer switch A "Then, a pair of locking claws 50, 50 as mounting means for locking in the pair of locking holes 6, 6 of the mounting frame 4 'are integrally formed on both end faces of the cover 3, respectively. Cuts 3c are provided on both sides of the locking claw protruding portion on one end surface side so that the locking claw 50, 50 can be bent when being locked to the locking holes 6, 6 of the mounting frame 4 ′. It has become. Further, a protrusion 3d is provided on the outer surface of the lower end of the projecting portion so as to be pushed from the outside when the locking state between the locking claws 50 and 50 and the locking holes 6 and 6 is released. It faces the outside from a notch 2c formed in the peripheral wall of the body 3.
[0063]
  Thus, it is constructed and assembled as described above.TataThe Ima switch A ″ is attached to the embedding hole provided in the wall of the building or the switch box by being mounted on the mounting frame 4 ′ shown in FIG. 23, and a load (for example, a ventilation fan) and an AC power source corresponding to the electronic timer circuit Is connected using a wire insertion hole on the back side of the container body 1 by an electric wire previously wired.
[0064]
A plate frame 35 ′ is fixed to the front side of the mounting frame 4 ′ by fastening a screw 36 to the screw hole 39. A decorative plate 37 is mounted on the front side of the plate frame 35. For example, a decorative cover 51 is mounted on the protruding portion 3a of the cover 3 of the timer switch attached to the central portion of the instrument mounting hole 5 of the mounting frame 4 ′. It fits in the window hole 38 of the decorative plate 37 and is exposed to the indoor side.
[0065]
Note that the decorative cover 51 has a width corresponding to the width on both sides of the mounting frame 4 ′. When the decorative cover 51 is attached to the container body 1, after the container body 1 is attached to the mounting frame 4 ′, the appliance of the mounting frame 4 ′ is mounted. Attached to the front surface of the projecting base 3a of the cover 3 protruding from the mounting hole 5 to the front side. This mounting is performed by locking a locking claw (not shown) provided on the back surface of the decorative cover 51 in a locking recess 3e provided on the peripheral edge of the protruding portion 3a of the cover 3.
[0066]
  Thus, TaWhen the push button switch SW2 is pushed through the sheet 51a of the decorative cover 51, the electronic timer circuit of the imma switch A ″ starts the operation of the ventilation fan RL according to the operation mode set by the operation changeover switch SW1. During operation or continuous operation, the operation is stopped when the pushbutton switch SW2 is pressed again, and the operation is automatically stopped when the timer operation time has elapsed, and protrudes from the front surface of the sheet 51a of the decorative cover 51. By operating the knob 18a, the operation changeover switch SW1 can be changed over, and by this changeover operation, the 4-hour timer operation, 2-hour timer operation or continuous operation of the electronic timer circuit can be selected and set.
[0067]
By the way, in the timer switch of each of the embodiments described above, the electronic timer circuit is constituted by a one-chip microcomputer created for controlling the ventilation fan, so that a long-time (for example, 4 hours) timer can be realized with high accuracy. In addition, when various functions are added, it is possible to easily cope with them without making a significant circuit change.
[0068]
  In each of the above embodiments,, ElectricThe operation of the child timer circuit is switched to a 4-hour timer operation, a 2-hour timer operation, or a continuous operation. However, the timer time is not limited to the above setting, and can be set to any timer time. .
[0069]
【The invention's effect】
  As described above, the invention of claim 1 corresponds to a mounting frame having a tool mounting hole which is elongated and provided with three sets of tool mounting means in the longitudinal direction, and the outer dimension of the tool mounting hole in the longitudinal direction is the tool mounting hole. An instrument body that has an attachment means for attaching to the instrument attachment means of the attachment frame, and that is housed inside the instrument body and is composed of an electronic circuit. An electronic timer circuit for operating a predetermined timer time load, and an electronic timer circuit for switching on and off the operation of the electronic timer circuit. The push button for operation facing the opening opened on the body surface A switch, a connection terminal for connecting a series circuit of a load and a power source, and a flexible decorative cover that is attached to the front surface of the container and that can push the operation push button facing the opening from the front side. Provided with the decorative cover When the push button switch is pressed for a certain period of time, the timer time of the electronic timer circuit is switched in order to a preset time while the push button switch is being pressed, and when the push button switch is stopped. Is set to the timer timeIn addition, one or a plurality of switch devices having operation switches for operating the load are connected, and the electronic timer circuit operates in accordance with the operation of the operation switch provided in each switch device.The outer dimension of the body with respect to the longitudinal direction of the instrument mounting hole is formed by multiplying the dimension of about 1/3 of the longitudinal direction of the instrument mounting hole by an integral number, and is attached to the instrument mounting means of the mounting frame. Since the mounting means is provided in the body, embedded wiring can be performed using an existing mounting frame, and since an electronic timer circuit is used, it is highly accurate compared to a switch having a conventional mechanical delay mechanism The effect is that a long timer can be realized.
[0074]
  Moreover, in the first aspect of the present invention, when the push button switch is pushed through the decorative cover for a predetermined time or more, the timer time of the electronic timer circuit is sequentially switched to a preset time while the push button switch is pushed. Since the set time when the push button switch operation is stopped is set to the timer time, there is no need to provide a switch for switching the timer time separately from the push button switch, and the cost is reduced by reducing the number of parts. In addition, since the size of the push button switch can be increased, the operability is improved.In addition, one or a plurality of switch devices having operation switches for operating the load are connected, and the electronic timer circuit operates in accordance with the operation of the operation switch provided in each switch device. It can be operated with a timer switch and switch devices installed at multiple locations.
[0075]
  The invention according to claim 2 corresponds to a mounting frame having an instrument mounting hole which is elongated and provided with three sets of instrument mounting means in the longitudinal direction, and the outer dimension of the instrument mounting hole with respect to the longitudinal direction is the longitudinal dimension of the instrument mounting hole. Is formed by multiplying the dimension of approximately 1/3 of the number by an integer, and has a mounting body for mounting on the mounting means of the mounting frame, and is housed in the body and is composed of an electronic circuit and has a predetermined size. An electronic timer circuit for operating a timer time load, and an electronic timer circuit for switching on and off the operation of the electronic timer circuit, a push button switch in which an operation push button faces an opening opened on a body surface, and a load And a connecting terminal for connecting a series circuit of the power source, and a flexible decorative cover that is mounted on the front surface of the body and that can push the operation push button facing the opening from the front surface side. Push button through the cover When the switch is pressed twice continuously within a predetermined time, the electronic timer circuit shifts to an operation mode for switching the set time of the timer time, and the timer time is preset every time the pushbutton switch is pressed once. The setting time at that point is changed by switching to the set time in sequence and either pressing the push button switch twice continuously within a predetermined time or stopping the push button switch for a certain period of time. Set to timer timeIn addition, one or a plurality of switch devices having operation switches for operating the load are connected, and the electronic timer circuit operates in accordance with the operation of the operation switch provided in each switch device.The outer dimension of the body with respect to the longitudinal direction of the instrument mounting hole is formed by multiplying the dimension of about 1/3 of the longitudinal direction of the instrument mounting hole by an integral number, and is attached to the instrument mounting means of the mounting frame. Since the mounting means is provided in the body, embedded wiring can be performed using an existing mounting frame, and since an electronic timer circuit is used, it is highly accurate compared to a switch having a conventional mechanical delay mechanism The effect is that a long timer can be realized. Furthermore, it is not necessary to provide a switch for switching the timer time separately from the push button switch, so the number of parts can be reduced and the cost can be reduced, and the size of the push button switch can be increased, and the operability is improved. There is an effect of doing.In addition, one or more switch devices having operation switches for operating the load are connected, and the electronic timer circuit operates in accordance with the operation of the operation switch provided in each switch device. It can be operated with a timer switch and switch devices installed at multiple locations.
[0076]
  Claim3The invention of claim 1Or 2According to the invention, in the interior of the container, the first printed circuit board on which circuit components constituting the electronic timer circuit are mounted, and the push button switch electrically connected to the circuit mounted on the first printed circuit board Is mounted on the second printed circuit board, and the body is configured by combining the body and the cover, and the first and second printed circuit boards are provided with an insulating spacer between the two substrates. The first and second printed circuit boards are clamped between the body and the cover so that the first and second printed circuit boards are fixed inside the container. Compared with the case where the first and second printed circuit boards are screwed to the body, the mounting operation can be performed more easily, and it is necessary to secure a space for screwing to the first and second printed circuit boards. Since there is no wiring pattern It is possible to widen the area that can be formed, there is an effect that the correspondingly substrate can be miniaturized reduce the overall size of the switch.
[0077]
  Claim4The invention of claim 1 to claim 1Any one of 3In the invention, a first power supply circuit that is supplied with power through the connection terminal and generates an operating power supply for the electronic timer circuit when the load is turned off, and a second power supply circuit that generates an operating power supply for the electronic timer circuit when the load is turned on. The electronic timer circuit is supplied with power from different power supply circuits when the load is turned on and off, so that the first and second power supply circuits are respectively turned off. Alternatively, the circuit can be designed under conditions that are in accordance with the on state, and there is an effect that a circuit with reduced voltage distortion of the load voltage can be realized.
[0079]
  Claim5The invention of claim 1 to claim 14In any one of the inventions, the electronic timer circuit is constituted by a microcomputer, a high-precision and long-time timer can be realized, and a program can be added when various functions are added. There is an effect that it is possible to easily cope with the change without making a significant circuit change.
[Brief description of the drawings]
[Figure 1]Basic configurationIt is a disassembled perspective view which shows this timer switch.
FIG. 2 shows the timer switch same as above, (a) is a front view, and (b) is a top view.
FIG. 3 is a cross-sectional view of the timer switch as seen from the right side.
4A and 4B show the timer switch of the above, in which FIG. 4A is an enlarged view of a main part with a cover removed, and FIG. 4B is a cross-sectional view taken along line A-A ′.
FIG. 5 is a view showing a state before the body and cover of the timer switch are assembled.
FIG. 6 is a cross-sectional view of the main part of the timer switch as seen from above.
FIG. 7 is a circuit diagram of the above timer switch.
FIG. 8 is an explanatory diagram for explaining a usage state of the timer switch.
FIG. 9 is a connection diagram for explaining a usage state of the timer switch.
FIG. 10 is a block diagram illustrating another usage state of the timer switch of the above.
FIG. 11 is a connection diagram for explaining another use state of the timer switch of the above.
FIGS. 12A to 12C are explanatory views for explaining the mounting state of the timer switch described above.
FIG. 13 is a state transition diagram for explaining the operation of the timer switch.
FIG. 14 is a state transition diagram illustrating another operation of the timer switch.
FIG. 15 is a front view showing another timer switch same as the above.
FIG. 16 is a front view showing another timer switch of the above.
FIG. 17Of this embodimentIt is a front view which shows a timer switch.
FIG. 18Another embodimentIt is a front view which shows a timer switch.
FIG. 19Reference exampleIt is a disassembled perspective view which shows this timer switch.
FIG. 20 is an explanatory diagram for explaining the usage state of the timer switch.
FIG. 21 is a connection diagram illustrating the usage state of the timer switch.
FIG. 22 is an exploded perspective view showing another timer switch same as the above.
FIG. 23Of another reference exampleIt is a disassembled perspective view which shows a timer switch.
[Explanation of symbols]
  A Timer switch
  SW1 operation selector switch
  SW2 push button switch
  LED1 Light emitting diode
  1 body
  2 Body
  3 Cover
  4 Mounting frame
  5 Device mounting holes
  15, 16 Printed circuit board

Claims (5)

Corresponding to a mounting frame having a tool mounting hole provided with three sets of tool mounting means in the longitudinal direction, the outer dimension of the tool mounting hole in the longitudinal direction is approximately 1/3 of the longitudinal dimension of the tool mounting hole. And an electronic device that is mounted in the mounting frame and has an attachment means for attaching to the device attachment means of the attachment frame, and an electronic device that is housed inside the vessel body and that is configured by an electronic circuit and operates a predetermined timer time load. The timer circuit and the electronic timer circuit are equipped to switch the operation of the electronic timer circuit. The pushbutton switch with the operation pushbutton facing the opening on the surface of the body is connected to the series circuit of the load and the power supply. And a flexible decorative cover that is mounted on the front surface of the container and that can push the operation push button facing the opening from the front surface side. Switch one If the push button switch is pressed for more than the time, the timer time of the electronic timer circuit is sequentially switched to a preset set time while the push button switch is being pressed, and the set time when the push button switch is stopped is set to the timer. One or a plurality of switch devices having operation switches for operating the load are connected, and the electronic timer circuit operates in accordance with the operation of the operation switch provided in each switch device. A timer switch characterized by Corresponding to a mounting frame having a tool mounting hole provided with three sets of tool mounting means in the longitudinal direction, the outer dimension of the tool mounting hole in the longitudinal direction is approximately 1/3 of the longitudinal dimension of the tool mounting hole. And an electronic device that is mounted in the mounting frame and has an attachment means for attaching to the device attachment means of the attachment frame, and an electronic device that is housed inside the vessel body and that is configured by an electronic circuit and operates a predetermined timer time load. The timer circuit and the electronic timer circuit are equipped to switch the operation of the electronic timer circuit. The pushbutton switch with the operation pushbutton facing the opening on the surface of the body is connected to the series circuit of the load and the power supply. And a flexible decorative cover that is mounted on the front surface of the container and that can push the operation push button facing the opening from the front surface side. Push button switch When the electronic timer circuit is pressed twice continuously within a predetermined time, the electronic timer circuit shifts to an operation mode for switching the set time of the timer time, and the timer time is set in advance every time the push button switch is pressed once. The set time at that time is set to the timer time by either pressing the push button switch twice in a predetermined time again or stopping the push button switch for a certain period of time. And one or more switch devices having an operation switch for operating the load are connected, and the electronic timer circuit operates in response to operation of the operation switch provided in each switch device. A featured timer switch. Inside the container, a first printed circuit board on which circuit components constituting an electronic timer circuit are mounted, and a circuit mounted on the first printed circuit board are electrically connected to the push button switch. A second printed circuit board is mounted, the container is configured by combining a body and a cover, and the first and second printed circuit boards are in a state where an insulating spacer is interposed between the two substrates. The timer switch according to claim 1, wherein the timer switch is sandwiched between the body and the cover. A first power supply circuit which is supplied with power through the connection terminal and generates an operating power supply for the electronic timer circuit when the load is turned off; a second power supply circuit which generates an operating power supply for the electronic timer circuit when the load is turned on; 4. The timer switch according to claim 1, wherein the timer switch is provided. 5. The timer switch according to claim 1 , wherein the electronic timer circuit is constituted by a microcomputer .

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